A thermostat housing is disclosed. The thermostat housing comprises a housing member. The housing member includes an inlet and an outlet to allow coolant to flow therethrough. The thermostat housing also includes least two thermostats within the housing member. The at least two thermostats have staggered opening temperatures. One of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range. A single loop of coolant is being controlled within the housing member.
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17. A thermostat housing comprising:
a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough; and
at least two thermostats within the housing member,
wherein the at least two thermostats have staggered opening temperatures,
wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled,
wherein the at least two thermostats comprise a low temperature thermostat and a high temperature thermostat, and
wherein only the low temperature thermostat is partially open when the coolant is at the first wherein the first predetermined temperature is substantially 180° C.
18. A thermostat housing comprising:
a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough; and
at least two thermostats within the housing member,
wherein the at least two thermostats have staggered opening temperatures,
wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled,
wherein the at least two thermostats comprise a low temperature thermostat and a high temperature thermostat,
wherein the low temperature thermostat is fully open and the high temperature thermostat is partially open at a second predetermined temperature of the coolant, and
wherein the high temperature thermostat is fully open at a third predetermined temperature of the coolant.
20. An engine system comprising:
an engine cylinder head;
a radiator; and
a thermostat housing coupled between the engine cylinder head and the radiator, the thermostat housing further comprising a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough to the radiator and the engine cylinder head; and at least two thermostats within the housing member,
wherein the at least two thermostats have staggered opening temperatures; wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled,
wherein the at least two thermostats comprise a low temperature thermostat and a high temperature thermostat,
wherein only the low temperature thermostat is partially open when the coolant is at the first predetermined temperature, and
wherein the first predetermined temperature is substantially 180° C.
1. A thermostat housing comprising:
a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough; and
at least two thermostats within the housing member, the at least two thermostats including a low temperature thermostat and a high temperature thermostat; wherein the at least two thermostats have staggered opening temperatures; wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled; and wherein the low temperature thermostat has a full opening temperature that is greater than a partial opening temperature of the high temperature thermostat,
wherein the low temperature thermostat is fully open and the high temperature thermostat is at least substantially half open at a second predetermined temperature of the coolant, and wherein the high temperature thermostat is fully open at a third predetermined temperature of the coolant.
21. An engine system comprising:
an engine cylinder head;
a radiator; and
a thermostat housing coupled between the engine cylinder head and the radiator, the thermostat housing further comprising a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough to the radiator and the engine cylinder head; and at least two thermostats within the housing member,
wherein the at least two thermostats have staggered opening temperatures; wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled,
wherein the at least two thermostats comprise a low temperature thermostat and a high temperature thermostat,
wherein the low temperature thermostat is fully open and the high temperature thermostat is partially open at a second predetermined temperature of the coolant, and
wherein the high temperature thermostat is fully open at a third predetermined temperature of the coolant.
9. An engine system comprising:
an engine cylinder head;
a radiator; and
a thermostat housing coupled between the engine cylinder head and the radiator, the thermostat housing further comprising a housing member; the housing member including an inlet and an outlet to allow coolant to flow therethrough to the radiator and the engine cylinder head; and at least two thermostats within the housing member, the at least two thermostats including a low temperature thermostat and a high temperature thermostat;
wherein the at least two thermostats have staggered opening temperatures; wherein one of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range, wherein a single loop of coolant is being controlled; and wherein the low temperature thermostat has a full opening temperature that is greater than a partial opening temperature of the high temperature thermostat,
wherein the low temperature thermostat is fully open and the high temperature thermostat is at least substantially half open at a second predetermined temperature of the coolant, and wherein the high temperature thermostat is fully open at a third predetermined temperature of the coolant.
2. The thermostat housing of
3. The thermostat housing of
4. The thermostat housing of
5. The thermostat housing of
6. The thermostat housing of
7. The thermostat housing of
8. The thermostat housing of
10. The engine system of
11. The engine system of
12. The engine system of
13. The engine system of
14. The engine system of
15. The engine system of
16. The engine system of
19. The thermostat housing of
22. The engine system of
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The present invention relates generally to thermostat housings and more specifically to optimizing coolant flow through a thermostat housing.
Optimizing coolant flow through a thermostat housing can have a strong influence on water pump parasitics and control of coolant temperature. More specifically many engines today suffer from cooling system designs that feature highly restrictive coolant bypass circuits and poor temperature control particularly during the initial opening of the thermostat. Accordingly what is desired is a system and method to address these issues. The present invention addresses such a need.
A thermostat housing is disclosed. The thermostat housing comprises a housing member. The housing member includes an inlet and an outlet to allow coolant to flow therethrough. The thermostat housing also includes at least two thermostats within the housing member. The at least two thermostats have staggered opening temperatures. One of the at least two thermostats opens and controls a flow rate of coolant through the housing when the coolant is within a first predetermined temperature range. A single loop of coolant is being controlled within the housing member.
The present invention relates generally to thermostat housings and more specifically to optimizing coolant flow through a thermostat housing. The following description is presented to enable one of ordinary skill in the art to make and use the invention and is provided in the context of a patent application and its requirements. Various modifications to the preferred embodiment and the generic principles and features described herein will be readily apparent to those skilled in the art. Thus, the present invention is not intended to be limited to the embodiment shown but is to be accorded the widest scope consistent with the principles and features described herein.
In an embodiment a thermostat housing is provided which utilizes multiple thermostats therewithin with staggered opening temperatures. Utilizing multiple thermostats within the thermostat rather than only one within the thermostat housing provides two distinct benefits. First, by staggering the opening temperature of multiple thermostats the flow rate is effectively reduced for a given thermostat position (as compared to a signal thermostat design) by roughly 50%. This reduction in coolant flow when one of the thermostats initially opens has the ability to reduce abrupt transitions in radiator coolant flow and thereby dramatically reduce the potential for temperature and pressure cycling/fluctuations often seen in single thermostat system designs.
Secondly, during operating conditions requiring low radiator coolant flow rates (i.e., cold ambient, light load duty cycles, etc.) coolant flow can be controlled through one of the thermostats. This results in an increased stroke for a given coolant flow rate (as compared to a single thermostat design), resulting in less shear and disruption to the coolant flow stream and thereby reducing the pressure drop across the thermostat and lowering cooling system/water pump parasitics. To describe the features of the present invention in more detail refer now to the following description in conjunction with the accompanying figures.
When the thermostats 108 and 110 are both are closed, coolant is allowed to flow is through the permanent bypass office 111 or through the thermostat bypass passages 108, and 110. The coolant flows through the thermostat housing 100 back to water pump inlet 112 in a single loop.
Accordingly, a thermostat housing is provided which utilizes multiple thermostats therewithin with staggered opening temperatures. By staggering the opening temperature of multiple thermostats the flow rate is effectively reduced for a given thermostat position (as compared to a signal thermostat design) by roughly 50%. The reduction in coolant flow when one of the thermostats initially opens has the ability to reduce abrupt transitions in radiator coolant flow and significantly reduces the potential for temperature and pressure cycling/fluctuations. In addition, during operating conditions requiring low coolant flow rates, the ability to control coolant flow through the low temperature thermostat results in an increased stroke for a given coolant flow rate.
Although the present invention has been described in accordance with the embodiments shown, one of ordinary skill in the art will readily recognize that there could be variations to the embodiments and those variations would be within the spirit and scope of the present invention. Accordingly, many modifications may be made by one of ordinary skill in the art without departing from the spirit and scope of the appended claims.
Bellinger, Steven M., Pulskamp, Douglas A.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Dec 13 2011 | BELLINGER, STEVEN M | Cummins Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 027385 | /0037 | |
Dec 13 2011 | PULSKAMP, DOUGLAS A | Cummins Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 027385 | /0037 | |
Dec 14 2011 | Cummins Inc. | (assignment on the face of the patent) | / |
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